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Abstrakty
Purpose: models of reverse logistics (RL) that consider the sustainable development goals (SDG) and circular economy activities (CEA) are increasingly appearing in the literature. Intention of the article is to show at what stage of implementation of the SDG and CEA the home appliance industry (HAI) is currently at and what challenges it faces in terms of implementing the RL model. Design/methodology/approach: The paper shows that the information, data, industry positions and reports presented on the website of the Association of Appliance Manufacturers (APPLiA) show that the HAI is too slow in moving towards the SDG and CEA. It also prevents the implementation of theoretical models of RL. Findings: The article shows that the current actions taken by HAI in Europe and Poland are insufficient to meet the SDG, CEA, and the implementation of full models of RL. Research limitations/implications: The presented research results refer to the data presented by the HAI of Europe and Poland, as well as the information contained on the websites of the APPLiA Europe and Poland. The presented research results can be related to the information of other relevant industries such as automotive, aerospace and others, so that the hypothesis that the industry insufficiently pursues the SDG and CE and does not take strategic steps towards the implementation of models of RL with special consideration of all CE activities. Practical implications: The paper points out that for the home appliance industry to realize the SDG and the CE through the implementation of RL, it must use Design for eXcellence (DfX) tools now with a focus on Design for Circular Economy (DfCE) and Design for Logistics (DfL). Social implications: no social implication. Originality/value: The article presents the author's model of RL and formulates challenges for the industry that are associated with its implementation. It should draw the attention of various industries to the need to take strategic actions for implementation SDG and CEA.
Rocznik
Tom
Strony
125--143
Opis fizyczny
Bibliogr. 36 poz.
Twórcy
autor
- University of Lodz, Faculty of Economics and Sociology, Department of Logistics, and Innovation
Bibliografia
- 1. Abdelshafie, A., Fatouh, T., Rashid, M. (2021). Trends and Practices of Reverse Logistics in Electronic Industry: A Case Study of Samsung Company. Global Business & Management Research, 13(3).
- 2. Al-Refaie, A., Kokash, T. (2022). Optimization of sustainable reverse logistics network with multi-objectives under uncertainty. Journal of Remanufacturing.
- 3. Al-Salem, M., Diabat, A., Dalalah, D., Alrefaei, M. (2016). A closed-loop supply chain management problem: Reformulation and piecewise linearization. Journal of Manufacturing Systems, 40.
- 4. Bielecki M., (2022). Total Logistics Management, Logistyka i łańcuchy dostaw 4.0, Lodz University Press, Lodz.
- 5. Che, A., Lei, J., Jiang, Z. (2022). Optimised redesign of reverse logistics network with multi-level capacity choices for household appliances. International Journal of Production Research, 60(18).
- 6. Condeixa, L.D., Silva, P., Moah, D., Farias, B., Leiras, A. (2022). Evaluating cost impacts on reverse logistics using an Economic Order Quantity (EOQ) model with environmental and social considerations. Central European Journal of Operations Research, 30(3).
- 7. Gholizadeh, H., Tajdin, A., Javadian, N. (2020). A closed-loop supply chain robust optimization for disposable appliances. Neural computing and applications, 32(8).
- 8. Guide, Jr., V.D.R., Li, J. (2010). The Potential for Cannibalization of New Products Sales by Remanufactured Products. Decision Sciences, 41.
- 9. http://applia.pl/tematy/gospodarka-obiegu-zamknietego/, 21.12.2022.
- 10. http://applia.pl/wp-content/uploads/2021/03/Applia_raport_2021_v3.pdf, accessed 27.12.2022.
- 11. http://applia.pl/wp-content/uploads/2022/09/Raport-AGD-2021.22_APPLIA-Producenci-AGD_220526.pdf, accessed 29.12.2022.
- 12. http://www.unic.un.org.pl/files/164/Agenda%202030_pl_2016_ostateczna.pdf, accessed 28.12.2022.
- 13. https://applia.pl/.
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- 15. https://applia.pl/media/stanowisko-branzy/, 27.12.0222.
- 16. https://applia-europe.eu/.
- 17. https://applia-europe.eu/applia-media/position-papers, 27.12.2022.
- 18. https://assets.website-files.com/6273d40fda4fa648b967fc54/634c73c4316ad0f573 e417e0_APPLiA-Statistical-Report.pdf, 27.12.2022.
- 19. https://eur-lex.europa.eu/legal-content/PL/TXT/PDF/?uri=CELEX:32009L0125& from=ES, 28.12.2022.
- 20. https://unstats.un.org/sdgs/report/2022/The-Sustainable-Development-Goals-Report-2022.pdf, 20.12.2022.
- 21. https://www.applia-europe.eu/initiatives, 22.12.2022.
- 22. https://www.circularappliances.eu/home, 23.12.2022.
- 23. https://www.dsv.com/pl-pl/nasze-rozwiazania/rodzaje-transportu/transport-drogowy/wymiary-naczep/naczepa-kurtynowa, 27.12.2022.
- 24. Imai, M. (2006). Gemba Kaizen. Zdroworozsądkowe, niskokosztowe podejście do zarządzania, MT Biznes, Warszawa.
- 25. Kagermann, H., Wahlster, W., Helbig, J. (Eds.) (2013). Securing The future of German Manufacturing Industry. Recommendation for implementing the strategic initiative Industry 4.0. Final report of the Industrie 4. Franfurkt/Main: Working Group, German Academy of Science and Engineering.
- 26. Kirchherr, J., Reike, D., Hekkert, M. (2017). Conceptualizing The Circular Economy: An Analysis of 114 Definitions. Resources, Conservation and Recycling, vol. 127.
- 27. Krstev, D., Krstev, A. (2022). Reverse Logistics - Possibility, Expectation and Sustainability Perspectives. Natural Resources & Technology, 16(1).
- 28. Kwok, H.L., Yiming, W. (2009). Reverse logistics in the electronic industry of China: a case study. Supply Chain Management: An International Journal, 14/6.
- 29. Lu, Y., Lu, J., Jia, H. (2011). Study on the Environmental Cost-sharing Method for Reverse Logistics in Household Appliances. Energy Procedia, 5.
- 30. Mazur, Z. (2020). Dieselgate i konsekwencje prawne manipulowania emisją spalin. Internetowy Kwartalnik Antymonopolowy i Regulacyjny, nr 7(9). Uniwersytet Warszawski.
- 31. Melo, A.C.S., de Lucena Nunes, D.R., Júnior, A.E.B., Brandäo, R., de Menezes Nascimento Nagata, V., Martins, V.W.B. (2022). Analysis of activities that make up reverse logistics processes: proposition of a conceptual framework. Brazilian Journal of Operations & Production Management, 19(2).
- 32. Pacheco, E.D., Kubota, F I., Yamakawa, E.K., Paladini, E.P., Campos, L.M.S., Cauchick-Miguel, P.A. (2018). Reverse logistics: Improvements and benefits when shifting parts exchanging process in a household appliance organization. Benchmarking: An International Journal, 25(5).
- 33. Potting, J., Hekkert, M., Worell, E., Hanemaaijer, A. (2017). Circular Economy: Measuring Innovation in the Product Chain. The Hague: PBL Netherlands Environmental Assessment Agency.
- 34. Rodrigues Vaz, C., Grabot, B., Houé, R., Uriona Maldonado, M., Selig, P.M., Taboada Rodriguez, C.M. (2015). Theoretical model of intellectual capital for the reverse logistics post-sale process: Case of Refrigeration Appliances. Perspectivas Contemporaneas, 10(2).
- 35. Rogers, D.S., Tibben-Lembke, R.S. (1998). Going Backwards: Reverse Logistics Trends and Practices Going Backwards: Reverse Logistics Trends and Practices, Logistics Management.
- 36. Yildirir, S.C., Sayan, Z. (2022). An Evaluation of Reverse Logistics Applications from Consumer Perspective. Dogus University Journal, 23(2).
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3982a17d-75e9-4060-aab2-85b5c01c874d